Auxiliary dust collection system

ABSTRACT

An auxiliary dust collection system can be interposed between a sander or other dust producing tool and a vacuum source, e.g., shop vacuum. This auxiliary system has a cyclonic separator connected by a flexible hose to the tool and by another hose to the vacuum source. The cone of the separator is mounted onto the lid of a drum into which the dust precipitates. For a tool that has its own blower, the vacuum source can be omitted, and the air leaving the outlet duct of the separator can be filtered and returned to the ambient. A drop in silencer formed of a sleeve or tube of acoustic foam can be positioned into the inlet side of a filter cartridge following a cyclonic separator. The silencer absorbs a significant fraction of the process noise.

BACKGROUND OF THE INVENTION

This invention is directed to devices and equipment for collecting bulksolids, for example, process dust coming from a dust generating tool,such as a sanding machine, where the dust is entrained in a flow of airfrom the source machine, and is separated out at the dust collectionequipment where the dust precipitates into a drum, barrel, or similarcontainer. The invention is more specifically directed to a compact andefficient device to be used between a tool and a vacuum source, e.g.,shop vacuum, to separate and collect the dust from the airstreamemerging from the tool before the air stream reaches the vacuum source.The invention is likewise concerned with a simple and straightforwarddust separation assembly that can be associated with a tool that has aduct from with the air stream plus entrained dust particles proceed.

The invention is also concerned with a simple and straightforwardsilencer device that can be dropped in to the cylindrical filter of acyclonic dust collection system to reduce the equipment noise by 3 to 8dB.

For many types of machines for processing a workpiece, some means has tobe provided to dispense with the grindings, chips, and particulatematter that is generated by the machine during operation. For example,in the case of wood working machines, such as sanders, joiners, and thelike, wood that is removed from a workpiece has to be collected andremoved from the work area so as to avoid either a breathing hazard forthe workman or a fire hazard. More specifically, in the case of portableequipment, sanders and buffers, it is conventional to draw off the dustthat is generated by the machines and then send the air that is carryingthe dust into a filter bag arrangement, or to draw off the dust througha flexible hose or conduit. In such case, the conduit or hose extendsfrom a dust outlet duct of the machine to a collection station. In thecase of smaller equipment, e.g., palm sanders or trim sanders, thestream of air is pumped through a flexible hose conduit, with theentrained process dust, to a piece of equipment that provides suctionand some filtering, e.g., a shop vacuum. This arrangement requires thatthe shop vacuum be cleaned and emptied regularly, to keep the wood dustfrom clogging the machine.

It has sometimes been desirable to collect bulk solids (e.g., dust)directly inside a drum or barrel, or in a plastic bag or liner in thedrum.

An example of a cyclonic dust collection system is shown in U.S. Pat.No. 6,833,016, which is incorporated herein by reference. In the dustcollection station described therein, the air flow and entrained processdust are drawn through a cyclone separator disposed atop a storage drumor barrel. The process dust falls into a durable plastic film bag orliner in the barrel, and the air then proceeds to a pumping andfiltering arrangement, where the dust-free air is discharged back intothe ambient environment. Means can be included to maintain a vacuum ornegative pressure as a bag hold-down feature, to draw and hold the bagagainst the inside of the barrel. Then, when the bag has been filled toits capacity, the bag can be tied off and lifted out, which eliminatesthe need to dump the barrel. This also avoids exposure to the operatorsof the process dust when the collected dust is removed from the barrelfor disposal.

In practice, no one has attempted to use a true cyclonic separator as anintermediate dust separation and collection device between the dustproducing tool and the shop vacuum or other source of suction thataccepts the dust and air stream from the tool. One proposed auxiliarydust collection receptacle, to be situated between a dust producing tooland a shop vacuum cleaner, is described in U.S. Pat. No. 6,027,541 toSiemers. In that proposed arrangement, a special lid is provided for aconventional plastic trash can. The lid has inlet and outlet sockets forhoses, one coming from the dust producing tool and the other going tothe shop vacuum. The air flow is intended to produce a cyclonic airmovement, with the dust precipitating from the air flow in the trashcan. This arrangement is only mildly effective, as only about 50 percentof the airborne dust is separated out, with the remaining 50 percentcontinuing to the shop vacuum. Also, because the trash can itself isboth the vortex chamber and the dust collection chamber, there is a lowlimit to the amount of dust that can be collected; at or above a partialfill level, the air stream picks up as much dust in the trash can as itdrops.

This arrangement also does nothing to reduce the level of process noisefrom operation of the dust collection equipment.

OBJECTS AND SUMMARY OF THE INVENTION

Accordingly, it is an object of this invention to provide an efficientauxiliary dust collection arrangement that avoids the drawbacks of theprior art.

It is a more specific object to provide a dust collection arrangementthat can be used in line between the dust producing tool and a suctionsource, such as a shop vacuum cleaner, that can separate out between 95%and 99% of the dust entrained in the air stream emerging from the tool.

It is another object to provide an auxiliary dust collection arrangementthat is simple and straightforward in construction, highly reliable, andadaptable to a wide range of tools.

It is a further object of this invention to provide a dust collectionsystem which does not significantly increase the system energy draw.

A still further object is to provide a drop-in silencer unit for acyclonic dust collection system.

According to an aspect of the invention, an auxiliary dust collectionarrangement is interposed between a dust producing tool, such as anelectric sander or other woodworking tool, and a vacuum apparatus, e.g.,a shop vacuum cleaner, for intercepting and removing dust carried in anair stream from the tool to the vacuum apparatus. In one preferred mode,the dust collection arrangement has a first flexible hose that extendsfrom a discharge duct on the tool to an inlet pipe of a cyclonicseparator. This separator has a generally conic body, i.e., which iswider at the top and narrowing to a nose or apex at its lower end. Anair outlet pipe extends from the top of the conic body. The process dustin the air stream separates in the body and proceeds to the nose of theconic body, and the main air stream leaves via the air outlet pipe.There is a dust collection drum disposed beneath the cyclonic separator.This drum should have a generally rigid wall and an open top or mouth atits top end. A lid member fits onto the mouth opening and forms a sealthere. A dust intake opening to which the nose of said conic body isfitted is centrally located on the lid member, and the dust that isseparated from air stream in the cyclonic separator descends out of thenose or apex and into the drum. Then, a second flexible hose extendsfrom the air outlet pipe to the vacuum apparatus. This separates out thevast majority of the dust, i.e., up to 99%, before the air streamreaches the vacuum. The dust is collected inside the drum rather than inthe vacuum cleaner, and this permits longer operation without clogging.

According to another preferred embodiment of this invention, a dustcollection arrangement is provided for tools that have a built-in bloweror air pump and a discharge duct where the air stream emerges, i.e.,where the shop vacuum cleaner is not needed to cause the flow of the airstream. This arrangement intercepts and removes dust carried in theexhaust air stream. Here, the dust collection arrangement employs aflexible hose extending from the discharge duct on said tool and acyclonic separator of the type employed in the first-describedembodiment. This separator has a generally conic body, an inlet pipeonto which the flexible hose is fitted; and an air outlet atop the conicbody. The dust in the air stream separates within the conic body andproceeds to the apex or nose of the conic body. As in the firstembodiment, a dust collection drum is situated beneath the cyclonicseparator, with the drum having a generally rigid wall and a mouth atits upper end. A lid member fits onto the mouth of the drum, and has acentrally disposed dust intake opening to which the nose of said conicbody is fitted. As in the first embodiment, the dust that is separatedfrom the air stream descends into collection drum. Because the air flowis provided from the sander or other tool, the shop vacuum cleaner (orother suction source) is not needed. Instead an air filter is mountedatop the cyclonic separator over its air outlet to catch residual dustin the air stream and pass filtered air back into the ambient.

A variety of flexible hoses can be furnished so as to fit the dustdischarge ducts of any of a number of tools. These generally have asleeve or cuff at the cyclone end that is a standard size (e.g., 1-½inch diameter), but the hose itself can be 1-½ inch, 1-¼ inch, or 1inch, with a cuff of the appropriate diameter at the tool end. In thepreferred arrangement, the second hose is 2 inch diameter, with suitablepush-on cuffs on both ends to connect with the air outlet pipe of thecyclone separator and to the vacuum cleaner. In the second embodiment,where the air stream is driven from the tool blower, the filter can be acylindrical cartridge filter, with a disk hold-down plate situated abovecartridge and a threaded rod passing through the hold down plate into athreaded socket situated in the air outlet, or inside the cyclone conicbody.

In addition, a drop-in silencer device may be provided specifically foruse with a cyclonic dust collection system. The cyclonic separator hasan air inlet pipe which receives, from a dust conduit, an air streamcontaining entrained dust particles. A drum is disposed beneath a noseof the separator and the dust particles descend into the drum. The airstream emerges from a discharge pipe atop the separator. A cylindricalair filter has an annular top surface with a round opening of apredetermined diameter leading into the filter. A fitting going to thetop of the filter connects the discharge pipe to the top of thecylindrical air filter, where a clamp removably secures the fitting tothe cylindrical filter. The drop-in silencer is formed of a sleeve of anacoustic foam material having a diameter to fit into the round opening,with an open bottom end situated within the cylindrical air filter. Atransverse flange ring extends radially out from the acoustic foamsleeve at an upper end thereof to be secured between the fitting and theannular top surface of said filter. This flange ring favorably isformed, in part, of a flexible material capable of forming a sealbetween fitting and filter when they are clamped together. The acousticfoam material favorably has a thickness of about ¼ inch to ½ inch, and atextured surface on the interior (i.e., sound-facing surface) of thesleeve. Many suitable types of acoustic foams are available, which canbe selected based on their sound attenuation spectrum, or absorptionfactors, as well as other factors. The silencers have diameters andlengths to match the cylindrical filter cartridges. These devicestypically reduce the noise level by 2 to 8 dB. The term “acoustic foam”is intended here to be given a broad reading, and can be considered tocover other acoustic material such as fibrous open-textured material.

The above and many other objects, features, and advantages of thisinvention will become apparent from the ensuing detailed description ofthe preferred embodiments, which is illustrated in the accompanyingDrawing.

BRIEF DESCRIPTION OF THE DRAWING

FIG. 1 is a perspective system view of vacuum system including anauxiliary dust separator according to one embodiment of this invention.

FIG. 2 is a and exploded view of the auxiliary dust separator of thisembodiment.

FIG. 3 is a partial cutaway view of the auxiliary dust separator forexplaining its operation.

FIG. 4 shows an assortment of intake hoses that can be employed in thisembodiment.

FIG. 5 shows two hoses being joined by a connector.

FIG. 6 is a perspective view of an alternative embodiment.

FIG. 7 is an exploded view of components of the alternative embodiment.

FIG. 7A shows a dust shaker arrangement employed in the embodiment ofFIGS. 6 and 7.

FIG. 8 is a perspective view of a dust separator and filter arrangement,with drop-in silencer according to an embodiment of this invention.

FIG. 9 is a schematic view of a portion of this embodiment.

FIG. 10 is another schematic view showing operation of the dustseparator, filter and silencer of this embodiment.

FIG. 11 shows a top plan view of the silencer of this embodiment.

FIGS. 12 and 13 are perspective views illustrating the drop in silencerof this embodiment.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT

Now with reference to the Drawing, FIG. 1 shows a woodshop application,which employs an auxiliary dust separation and collection device 10 ofpresent invention. As illustrated, a wood sander device 12 is shown inuse on a wood workpiece, e.g., a door 14 or article of furniture. Thesander 12 has a dust exhaust duct 16, which is connected by an elongatedflexible hose 18 to an intake of the auxiliary separation and collectiondevice. Dust in the air stream emanating from the sander 12 (or fromanother tool or machine) is intercepted at the auxiliary device 10, in acyclonic separator 20. This separator comprises a conic body 22, with anintake pipe 24 that is fitted with a connector or cuff 26 of the hose18. The cuff is favorably a tubular push-on sleeve. The conic body has anose or vertex 38 at its lower end where it is attached by means of acoupler ring 30 to a lid or cover 32 that is fitted onto a drum orbarrel 34. A vortex pipe 36 extends up from within the conic body 22 andits upper end serves as outlet pipe. An outlet hose 38, i.e., anotherelongated flexible hose, extends to a suction inlet of a vacuum source,which in this arrangement is a shop vacuum cleaner 40. In otherembodiments, the vacuum source could be a central vacuum system. A cuff42 on the cyclone end of the hose 38 is push-fitted over the outlet pipe36. A noise control device, i.e., silencer, can be employed with thevacuum cleaner 40 to reduce the noise level by a few dB.

As illustrated in better detail in FIG. 2, the cyclonic separator 20 hasits nose or vortex 28 oriented downward, and incorporates a malethreaded pipe nipple 44. The coupler ring 30 of the drum lid 32 isconstituted as a female threaded nipple, such that the nose 28 of theconic body 22 is screwed into the coupler ring 30 and is held rigidly inplace on the drum lid. The lid itself is favorably formed of steel oranother durable rigid material, such as any of a variety of toughplastic resins. A seal ring 46, formed of a suitable elastomericmaterial, fits onto an outer flange 48 of the lid 32, and fits againstan open mouth 50 at the upper rim of the barrel or drum 34. The drum inthis embodiment has a rigid side wall, so as to withstand the systemvacuum without collapsing or crushing. A circumferential clamp 52 may beused here to secure the lid 32 onto the upper rim of the drum 34.

Normal operation of this embodiment may be explained with reference toFIG. 3.

As explained above, the auxiliary dust collection device 10 isinterposed in the air stream between the sander or other dust producingtool 12 and the shop vacuum or other suction source 40. The vacuumcleaner 40 induces an air flow through the intake conduit 18 andcyclonic separator 20, and then via the outlet pipe 36 and outletconduit 38 to the vacuum cleaner 40. The air stream or air flow isrepresented with arrows in this view. Entrained process dust in the airstream separates out by cyclonic action in the separator 20, and thisdust then precipitates from the nose 38 into the drum 34. The action ofthe vacuum cleaner 40 creates a net negative pressure, relative toambient, within the cyclonic separator 20 and the drum 34. The seal ring46 serves to prevent leakage of air into the drum 34, which couldinterfere with the precipitation of dust into the drum, and would alsoreduce efficiency of operation. Also, because this system uses agenerally rigid drum, rather than a flexible bag, the system provides acalm, dead space where the separated process dust can fall and leave theair stream. The separation efficiency of this system is rather high, andbetween 95% and 99% of the process dust from the tool separates out fromthe air stream into the drum 34, with only a small amount of residualdust remaining in the air stream, and going to the vacuum cleaner 40.Consequently, the shop vacuum cleaner 40 can be run continuously for anextended period of time without clogging.

A polyethylene bag liner may optionally be used in the drum or barrel tofacilitate disposal of the collected dust. If so, a vacuum hold downfeature may be employed.

A number of hose options are available, as explained with FIGS. 4 and 5.Each length of intake hose should have a cuff 26 that is of a standard1.5 inch inside diameter, so as to fit onto the inlet pipe 24 of thecyclonic separator. As shown here, the hose 18 may be of a smalldiameter, e.g. 1.0 inch, with a 1.0 inch cuff 54 at the tool end; theremay be an intermediate 1.25 inch hose 18′ with a 1.25 inch cuff 54′ aswell as a large 1.5 inch hose 18″ with a 1.5 inch cuff 54″ to fit tooldust conduits of those sizes. The larger hose sizes may also be used forgeneral cleaning. All hoses have at least one 1.5 inch cuff to connectto the cyclone inlet.

As shown in FIG. 6, a tubular coupler 56 may be used for extending thehose length. A 1.5 inch hose 18″ is run from the cyclone, then thecoupler is inserted into the cuff 54″ and the length of hose 18 of thedesired diameter is attached to run to the tool.

In a preferred arrangement, the cyclonic separator 20 is about sixteeninches tall, with the inlet pipe 24 being 1-½ inches in diameter, andthe outlet pipe 36 being 2 inches in diameter, with the hose 38 to thevacuum cleaner 40 being 2-inch flexible hose. In this preferredarrangement, the drum 34 is a ten gallon capacity metal drum of about 15inch diameter. The overall height of the unit is about 31 inches. Thehoses 18, 38 are wire-reinforced static dissipating hoses.

An alternative arrangement of the dust collection device 60 isillustrated in FIGS. 6 and 7. This implementation is used with a tool12′, such as floor sanding edger, which has its own internal blower, sothat the required air flow is produced by the tool. In this arrangement,the shop vacuum cleaner is not needed. Here, a cyclonic separator 20′has basically the same elements as in FIGS. 1 to 3, except that there isno hose or conduit connected with the unit's outlet pipe 36. As in theprevious embodiment, the separator 20′ has an inlet pipe 24 and a noseor apex 28 mounted onto the drum lid 32. The hose to the tool 12′ isfitted to the inlet pipe 24. However, rather than going through thevacuum cleaner hose, the discharge air is instead exhausted into afilter cartridge 62, and thence into the ambient or room air. In thisembodiment, the filter cartridge is a cylindrical pleated media highefficiency filter, e.g., a HEPA filter. The cylindrical filter cartridge62 has its lower end seated onto a top surface 64 of the conic body 22of the separator 20. A hold-down disk 66 fits against the top end of thefilter cartridge 62, and this is held in place by a threaded rod 68 thattwists into a nut 70 located within the conic body 22 along the axis ofthe outlet pipe.

As shown here, a ring clamp 52 secures the top or lid 32 against themouth 50 of the drum 34. Here, because the tool 12′ creates a positivepressure, there is a positive system pressure relative to ambient, andan overpressure inside the drum 34. The clamp 52 keeps the lid and ringseal closed against the drum, to keep dust from blowing out of the drumfrom under the lid.

Another optional feature are casters or wheels 72 for the drum 34, toallow the device 60 to be pulled along to follow the work, e.g., for thesanding of floors or woodwork. The device 60 does not require power, asall the air flow is provided from the tool.

A crank-operated dust shaker arrangement 80 (See FIG. 7B) can beemployed to loosen the dust that collects on the inner part of thefilter cartridge 62. In this case, there are clamps 82 at the base ofthe filter 62 to hold it to the top 64 of the conic body 22 of theseparator. At the top of the filter cartridge is a crank 84, formed of adisk 86 and a handle 88, with a rod 90 descending into the interior ofthe filter cartridge. A tee member 92, formed of a flexible material,e.g., Teflon, extends outward from the rod 90, and its tips extend justinto the pleats 94 on the inside of the filter cartridge 62. After a fewhours of operation, some dust can collect on the inner surfaces of thefilter cartridge. This can be knocked off from the inside by rotatingthe crank 84, after turning off the air flow. The tee member 92 snapspast each of the interior pleats 94, and this shaking action loosens thecollected dust, and this dust then falls down through the vortex tube 36and into the barrel or drum. In the case where there is a gap betweenthe vortex tube and the inner pleats of the filter 62, a small flaredflange 96, favorably made of a flexible, rubber-like material, can befitted onto the top end of the vortex tube.

A drop-in silencer according to an embodiment of the invention is shownwith reference to FIGS. 8 and 9 and with further reference to FIGS. 10to 13. The silencer can be used with a cyclonic separator dustcollection and containment system, e.g., in a wood shop environment.

Here, a cyclonic dust collector 110 has an air intake 112 that isconnected downstream of dust producing tool (or tools), which introducesa stream of dust-laden air into a conic body 114 where the dustseparates from the air stream by cyclonic action. A nose or vortex 116at the bottom is connected by a conduit 118 to a dust collection drum120. The dust that separates from the air stream precipitates out viathe nose 116 and settles into the drum 120. A centrifugal fan or blower122 at the top of the cyclonic separator creates an air flow out fromthe cyclone and through an exhaust port 124. A single-phase AC inductionmotor 126 powers the blower 122.

The exhaust air flow passes from the exhaust port 124 and through a highperformance cartridge filter 130 into the ambient room air. About 95 to99% of the dust is removed from the air stream by the cyclonicseparator, and the residual dust is caught in the filter 130. Thecylindrical cartridge filter 130 has its axis arranged vertically, witha lower end seated on a canister-shaped base or pedestal 132. Aconnector 134 that receives the exhaust air flow from the exhaust port124 is fastened down to an upper end of the cartridge filter. The filter130 is of the type having pleated filter material forming cylindricalside wall or walls, and has annular top and bottom end walls 136, eachwith a circular opening. A flange 138 on the connector 134 clamps to thetop end wall 136 of the filter, so that the exhaust air is ducted intothe interior of the cartridge filter.

The fan or blower 122 produces a significant level of noise, which canbe a nuisance in a workplace environment. In order to reduce processnoise, a drop-in silencer 140 is employed, as illustrated, to reduce thevolume of the noise. The silencer 140 is formed of a tube or cylinder142 of an acoustic foam. A transverse flange 144 extends radially outfrom the top end of the tube 142. This can be made at least partly of asemi-flexible compressible material so as to form a seal between theflange 138 and the top end 136 of the filter cartridge. As illustratedby arrows in FIG. 9, noise from the blower 124 is ducted with the airflow into the cartridge 130, and can escape from there into theworkplace. However, the silencer 140 absorbs a significant amount of thenoise, especially at the more annoying wavelengths above 2 KHz.

As shown in FIG. 10, dust that is entrained in the air flow from dustproducing tools is separated out in the conic body 114 of the cyclone,and the dust fall from the nose 116 into the drum or barrel 120. The fanor blower 122 that drives the air flow produces significant noiselevels, and the silencer 140 serves to trap and absorb this noise whenit enters the filter cartridge.

As shown in FIGS. 11, 12, and 13, the silencer is generally cylindricalin shape, and conforms with the interior diameter of the cylindricalfilter cartridge 130. The acoustic foam has a textured surface 146 atthe interior side of the tube, i.e., on the sound-facing side. Theacoustic foam may have a thickness of ¼ inch, ⅜ inch or ½ inch. The tubelength of the silencer 140 is about one quarter to a third the length ofthe cartridge 130. The silencer is effective in reducing the noiselevels by about 2 dB to 8 dB, at least for frequencies above about 2KHz. Optionally, baffles 148 (FIG. 11) may be formed in the interior ofthe acoustic foam tube to enhance its noise suppression. The baffles maybe formed of the same acoustic foam, or may be formed of othermaterials.

While the invention has been described hereinabove with reference to afew preferred embodiments, it should be apparent that the invention isnot limited to such embodiments. Rather, many variations would beapparent to persons of skill in the art without departing from the scopeand spirit of this invention, as defined in the appended Claims.

1. (canceled)
 2. Auxiliary dust collection arrangement according toclaim 19 comprising a clamp to hold said lid onto a rim at the mouth ofsaid drum.
 3. Auxiliary dust collection arrangement according to claim 2wherein said clamp includes a ring clamp.
 4. Auxiliary dust collectionarrangement according to claim 19 wherein a dust conduit connects thenose of the conic body to said dust intake opening.
 5. Auxiliary dustcollection arrangement according to claim 19 wherein said nose includesa male threaded nipple and the dust intake opening of said lid includesa female threaded member into which said male threaded nipple isscrewed.
 6. Auxiliary dust collection arrangement according to claim 19wherein the conic body of said cyclonic separator is rigidly supportedon said lid.
 7. Auxiliary dust collection arrangement according to claim19 wherein said first flexible hose includes a tubular push-on sleeveremovably fitted onto said inlet pipe.
 8. Auxiliary dust collectionarrangement according to claim 19 wherein said second flexible hoseincludes a tubular push-on sleeve removably fitted onto said air outletpipe.
 9. In combination, a dust producing tool of the type of tool whichincludes a blower and a discharge duct from which an exhaust air streamemerges in which production dust is entrained, and a dust collectionarrangement for intercepting and removing the dust carried in saidexhaust air stream, the dust collection arrangement operating withoutany vacuum source downstream thereof; the dust collection arrangementcomprising a. a flexible hose extending from the discharge duct on saidtool; b. a cyclonic separator having a conic body, an inlet pipe ontowhich said flexible hose is fitted, a vortex pipe that extends up fromwithin said conic body, and an air outlet atop said conic body; suchthat dust in the air stream separates in said conic body and proceeds toa lower nose of said conic body; c. a dust collection drum disposedbeneath said cyclonic separator, the drum having a generally rigid walland a mouth at its upper end; d. a lid sealably fitting onto the mouthof the drum, and having a central dust intake opening to which the noseof said conic body connects, with said drum and said conic body having apositive pressure relative to ambient, such that the dust separated fromsaid air stream descends into said drum; and e. an air filter mounteddirectly atop said cyclonic separator over said air outlet to catchresidual dust in said air stream and to pass filtered air directly backinto the ambient.
 10. Dust collection arrangement according to claim 9wherein said air filter includes a generally cylindrical filtercartridge, with a hold-down plate situated above said cartridge and athreaded rod passing through said hold down plate into a threaded socketsituated in said air outlet.
 11. Dust collection arrangement accordingto claim 9 comprising a clamp to hold said lid onto a rim at the mouthof said drum.
 12. Dust collection arrangement according to claim 11wherein said clamp includes a ring clamp.
 13. Dust collectionarrangement according to claim 9 wherein a dust conduit connects thenose of the conic body to the dust intake opening of said lid.
 14. Dustcollection arrangement according to claim 9 wherein said nose includes amale threaded nipple and the dust intake opening of said lid includes afemale threaded member into which said male threaded nipple is screwed.15. Dust collection arrangement according to claim 9 wherein the conicbody of said cyclonic separator is rigidly supported on said lid. 16.Dust collection arrangement according to claim 9 wherein said flexiblehose includes a tubular push-on sleeve removably fitted onto said inletpipe.
 17. Dust collection arrangement according to claim 9 wherein saidfilter cartridge is a cylindrical pleated filter cartridge, and furthercomprising a crank-operated dust shaker arrangement extending into thefilter cartridge for loosening dust that collects on inner parts of thefilter cartridge, such that the dust can be removed from the filtercartridge without removing the latter from the top of the cyclonicseparator.
 18. Dust collection arrangement according to claim 17,wherein said dust shaker arrangement includes a crank situated abovesaid filter cartridge, a rod extending from the crank into an interiorof the cartridge, and a tee member on said rod that extends radially outto contact pleats of said cylindrical filter cartridge.
 19. Incombination, a dust producing source of the type having a dust dischargeduct; a first flexible hose extending from the discharge duct of saidsource; a shop vacuum machine for providing suction at a suction port todraw an airflow therefrom and to collect and store dust therein and passthe air from said airflow therefrom to the ambient; a second flexiblehose extending to the suction port of said shop vacuum machine; and anauxiliary dust collection arrangement interposed between the dustproducing source and said shop vacuum machine for intercepting andremoving dust carried in the airflow from the source to the shop vacuummachine; the auxiliary dust collection arrangement comprising a) acyclonic separator having a conic body, a vortex pipe that extends upfrom within said conic body, an inlet pipe onto which said firstflexible hose is removably fitted, and an air outlet pipe atop saidconic body onto which said second flexible hose is removably fitted;such that dust carried in the airflow that arrives in said firstflexible conduit separates in said conic body and proceeds to a lowernose of said conic body; b) a dust collection drum disposed beneath saidcyclonic separator, the drum having a generally rigid wall and a mouthat its upper end; and c) a lid sealably fitting onto the mouth of thedrum, and having a central dust intake opening which connects to andsupports the nose of said conic body, such that the dust separated fromsaid airflow descends into said drum.
 20. Dust collection arrangement ofclaim 19, wherein said inlet tube has a diameter of substantiallyone-and-one-half inches, and said outlet tube has a diameter ofsubstantially two inches.
 21. Dust collection arrangement of claim 19,wherein said first and second flexible hoses are wire-reinforced, staticdissipating hoses.